DE3718123C1 - Relay - Google Patents

Abstract

A device is proposed for a relay, which device is activated in the event of the normally-open contacts of the relay sticking, in order to open the normally-open contacts of the relay again.

Description

The invention relates to a relay according to the preamble of claim 1.

In the continuous operation of relays, it is one of these constructions share inherent problems that the live Working contacts form sparks when opening and thereby it for gluing or welding between the ar contacts come. Then the current in the Re When the coil is switched off, the work contacts remain closed and the current controlled by the relay is not switched off. A similar effect can occur, for example, by oil mist or other on effects that cause the contacts to stick together.

Generic relays are state of the art and at for example from French patent specification 10 57 225, from U.S. Patent 18 28 299, DE-OS 16 39 005 or the DE-PS 69 810 known.

From DE-AS 12 60 004 it is for separating from one another the glued contacts known, with a snap switch the one contact carrier arm as a bi-metal arm to design. By heating the current, the the arm carrying the contact laterally, i.e. perpendicular to the Direction of movement of the contacts pulled away and thereby the current flow is interrupted.

Such an arrangement is for the use of relays not suitable, since after opening the contacts subsequent closing of the contacts is no longer possible is because the contacts then ver laterally to each other  sets are. The bracket must first cool down so far that it is even possible to close the relay again.

The object of the invention is to switch off by the relay ensure controlled current.

The task is solved by the main claim.

According to the invention it is provided that a device ensures that when the relay current is switched off the contacts, if they stick, by a corresponding force is pushed apart.

Preferred embodiments are in the subclaims described.

An example of training an appropriate Force is a bi-metal strip that is caused by current flow can be heated. If the relay current is switched off, whereby the working contacts are characterized by Ver  sticking or not loosening welding, a current flow begins, which bends the bimetallic strip so that the bimetallic strip advances kerplatte in the position applied to open the working leads leads.

Another option is to assign an auxiliary coil to the relay nen, under the same conditions mentioned above, namely at switched off relay current and not open work contacts, is excited. This moves a corresponding coil core, the exerts pressure on the anchor plate and this into which the working contacts open position.

According to a development of the invention, the device according to the invention for opening the working contacts Taking advantage of the fact that the anchor plate when working closed contacts due to their attraction to the coil core of the relay coil undergoes a certain deflection. This deflection is used moved to see if the work contacts due to the excitement the relay coil are closed, or whether the working contacts are single are glued together. There is an auxiliary for this on the anchor plate Contact provided, which is open when the countertop through is curved and is closed when the worktop due to the switched off relay current is not bent and working clocks are still glued together.

If the anchor plate is lifted and the work contacts are open, is the current to the invented by opening the working contacts device according to the invention, which ensures the opening of the working contacts poses, interrupted.

In the following the invention with reference to the drawing in detail shown. It shows  

Figure 1 is a schematic diagram of a first embodiment for the invention. and

Fig. 2 shows a corresponding representation realizing a second embodiment of the invention.

In the figures, 10 denotes a relay, which has a Grundplat te 12 , from which the contacts 14 and 16 are led out, which enable the power supply to the relay coil 18 . A coil plate 20 is used to attach the relay coil 18th A contact carrier plate 24 carries two working contacts 30 and 32 , the corre sponding working contacts 28 and 34 on an anchor plate 36 opposite. The armature plate 36 is attracted by the coil core 60 when the relay coil 18 is excited.

Two mounting pins 22 and 26 are seen on the base plate 12 to fix the relay at the installation location.

In the figures, the relay is shown when the relay coil 18 is switched off, that is to say when the armature plate 36 is lifted off and the work contacts 28, 30, 32, 34 are open. It is important that the distance a between the working contacts 28 and 30 and the same distance a between the working contacts 32 and 34 is smaller than the distance b between the coil core 60 and the armature plate 36 .

In order to ensure opening of the working contacts when gluing the working contacts 28, 30 and 32, 34 , which would not lead to an interruption of the working current when the current flow through the relay coil 18 is switched off, an opening of the working contacts is ensured on the armature plate 36 via insulation 44 Auxiliary contact 42 attached, the opposite contact is attached to the base plate 12 via a carrier 38 .

On the coil support plate 20 is a bimetallic strip 52 is ruled out, the other end of which is connected to the anchor plate 36 , when the bimetallic strip 52 is heated, the anchor plate 36 is struck into the open position of the working contacts 28, 30, 32, 34 . The bimetallic strip is heated by current flow, either by a current flow directly through the bimetallic strip, or by a heating coil 48 surrounding the bimetallic strip, one end 50 of which is connected directly to the relay control current via a feed line 50 , and the other End is connected via a line 46 to the auxiliary contact pair 42 .

Now, the armature plate 36 is closed by the relay 10 due to a current flow through the relay coil 18, the armature moves plate 36 only by the distance a in the direction of the relay coil, thus closing the normally open contacts 28, 30, 32 and 34th By the magnetic force of the coil core 60, the armature plate is, however, drawn up into contact with the yoke surface of the coil bobbin 60, and since the distance b of the anchor plate 36 of the spool core 60 ba by the distance is greater than the distance a of the operating contacts from each other, undergoes the anchor plate 36 a deflection which leads to the auxiliary contacts 42 opening.

If the current flow through the relay coil 18 is now switched off, the armature plate 36 lifts off the coil core 60 . Are the Ar beitskontakte 28, 30, 32 and 34 glued together, the bending of the anchor plate 36 is canceled. However, it remains in the closed position. By this position, the auxiliary contacts 42 are closed, and there is a current flow through the terminal 16 , to which voltage is still applied, the line 50, 48, 46 and the auxiliary contact pair 40 , which heats the bimetallic strip 52 . As a result of the deformation of the bimetallic strip 52 that occurs , the anchor plate 36 is finally lifted off, the contacts 28, 30 and 32, 34 are electrically separated from one another. This separation of the working contacts 28, 30 and 32, 34 simultaneously interrupts the voltage at terminal 16 , whereby the current flow through the heating coil 48 is interrupted.

An alternative is shown in FIG. 2. There is an extension 54 provided instead of the bime tallstreifens from FIG. 1 on the coil support plate 20 , which supports an auxiliary coil 56 . Again via the branching point 50 , the auxiliary coil 56 is excited when the auxiliary contact pair 40 is closed, thereby actuating a coil core 58 which moves the armature plate 36 into the open position.

The more complex structure according to FIG. 2 enables a faster response than the structure according to FIG. 1, in particular it is possible to generate a hammering of the coil core 58 on the armature plate 36 by means of a corresponding timer element by the corresponding control of the coil 56 a release of the working contacts 28, 30, 32 and 34 ensures even in difficult cases.

Claims (6)

1.Relay with a relay coil which can be excited by electrical current and an armature plate which is operationally coupled to at least one pair of normally open contacts, wherein when the relay is not energized, the anchor plate is acted upon by a restoring force in the direction of opening the normally open contacts, characterized in that a device ( 52, 56 ) is provided which, when the current flowing through the relay coil ( 18 ) is switched off, supports the movement of the armature plate ( 36 ) into the position which opens the working contacts ( 28, 30, 32, 34 ). 2. Relay according to claim 1, characterized in that a bimetallic strip ( 52 ) cooperating with the armature plate ( 36 ) is provided which is heated when the relay coil ( 18 ) is not energized and the working contacts ( 28, 30, 32, 34 ) are closed to support the movement of the anchor plate ( 36 ) in the opening position. 3. Relay according to claim 1, characterized in that an auxiliary coil ( 58 ) acting on the armature plate ( 36 ) is provided, which contacts ( 28, 30, 32, 34 ) is energized when the relay coil ( 18 ) is not energized and the working contacts are closed Support the movement of the anchor plate ( 36 ) in the open position. 4. Relay according to one of claims 1 to 3, characterized in that actuatable auxiliary contacts ( 40, 42 ) are provided by the position of the armature plate ( 36 ), the coil when the relay is not energized ( 18 ) and the armature plate ( 36 ) is not lifted off. a current flow for controlling the device ( 52, 56 ), which supports the movement of the armature plate ( 36 ) into the open position ( 28, 30, 32, 34 ) in the opening position when the relay coil ( 18 ) flows through the current, enable. 5. Relay according to claim 4, with an excited relay coil and closed working contacts bent armature plate, characterized in that the auxiliary contacts ( 40, 42 ) are open when the armature plate is bent ( 36 ) and closed when the working contacts ( 28, 30, 32, 34 ) and unexcited relay coil ( 18 ). 6. Relay according to claim 5, characterized in that the auxiliary contacts ( 40, 42 ) are closed, but are de-energized when the work contacts are open ( 28, 30, 32, 34 ).